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|
/* SPDX-License-Identifier: LGPL-3.0-or-later */
/*
* winpthread.c
*
* Copyright (C) 2019 David Oberhollenzer <goliath@infraroot.at>
*/
#define SQFS_BUILDING_DLL
#include "internal.h"
#if defined(_WIN32) || defined(__WINDOWS__)
# define WIN32_LEAN_AND_MEAN
# include <windows.h>
# define LOCK EnterCriticalSection
# define UNLOCK LeaveCriticalSection
# define AWAIT(cond, mtx) SleepConditionVariableCS(cond, mtx, INFINITE)
# define SIGNAL_ALL WakeAllConditionVariable
# define THREAD_CREATE(hndptr, proc, arg) \
((*hndptr) = CreateThread(NULL, 0, proc, arg, 0, 0), \
((*hndptr) == NULL) ? -1 : 0)
# define THREAD_JOIN(t) \
do { \
WaitForSingleObject(t, INFINITE); \
CloseHandle(t); \
} while (0)
# define MUTEX_INIT InitializeCriticalSection
# define MUTEX_DESTROY DeleteCriticalSection
# define CONDITION_INIT InitializeConditionVariable
# define CONDITION_DESTROY(cond)
# define THREAD_EXIT_SUCCESS 0
# define THREAD_INVALID NULL
# define THREAD_TYPE DWORD WINAPI
# define SIGNAL_DISABLE(oldset) (void)oldset
# define SIGNAL_ENABLE(oldset) (void)oldset
typedef int sigset_t;
typedef LPVOID THREAD_ARG;
typedef HANDLE THREAD_HANDLE;
typedef CRITICAL_SECTION MUTEX_TYPE;
typedef CONDITION_VARIABLE CONDITION_TYPE;
#else
# include <pthread.h>
# include <signal.h>
# define LOCK pthread_mutex_lock
# define UNLOCK pthread_mutex_unlock
# define AWAIT pthread_cond_wait
# define SIGNAL_ALL pthread_cond_broadcast
# define THREAD_CREATE(hndptr, proc, arg) \
pthread_create((hndptr), NULL, (proc), (arg))
# define THREAD_JOIN(t) pthread_join((t), NULL)
# define MUTEX_INIT(mtx) \
*(mtx) = (pthread_mutex_t)PTHREAD_MUTEX_INITIALIZER
# define MUTEX_DESTROY pthread_mutex_destroy
# define CONDITION_INIT(cond) \
*(cond) = (pthread_cond_t)PTHREAD_COND_INITIALIZER
# define CONDITION_DESTROY pthread_cond_destroy
# define THREAD_EXIT_SUCCESS NULL
# define THREAD_INVALID (pthread_t)0
# define SIGNAL_ENABLE(oldset) pthread_sigmask(SIG_SETMASK, oldset, NULL)
typedef void *THREAD_TYPE;
typedef void *THREAD_ARG;
typedef pthread_t THREAD_HANDLE;
typedef pthread_mutex_t MUTEX_TYPE;
typedef pthread_cond_t CONDITION_TYPE;
static inline void SIGNAL_DISABLE(sigset_t *oldset)
{
sigset_t set;
sigfillset(&set);
pthread_sigmask(SIG_SETMASK, &set, oldset);
}
#endif
typedef struct compress_worker_t compress_worker_t;
typedef struct thread_pool_processor_t thread_pool_processor_t;
struct compress_worker_t {
thread_pool_processor_t *shared;
sqfs_compressor_t *cmp;
THREAD_HANDLE thread;
sqfs_u8 scratch[];
};
struct thread_pool_processor_t {
sqfs_block_processor_t base;
MUTEX_TYPE mtx;
CONDITION_TYPE queue_cond;
CONDITION_TYPE done_cond;
sqfs_block_t *proc_queue;
sqfs_block_t *proc_queue_last;
sqfs_block_t *io_queue;
sqfs_block_t *done;
size_t backlog;
int status;
sqfs_u32 proc_enq_id;
sqfs_u32 proc_deq_id;
sqfs_u32 io_enq_id;
sqfs_u32 io_deq_id;
unsigned int num_workers;
size_t max_backlog;
compress_worker_t *workers[];
};
static void free_blk_list(sqfs_block_t *list)
{
sqfs_block_t *it;
while (list != NULL) {
it = list;
list = list->next;
free(it);
}
}
static sqfs_block_t *get_next_work_item(thread_pool_processor_t *shared)
{
sqfs_block_t *blk = NULL;
while (shared->proc_queue == NULL && shared->status == 0)
AWAIT(&shared->queue_cond, &shared->mtx);
if (shared->status == 0) {
blk = shared->proc_queue;
shared->proc_queue = blk->next;
blk->next = NULL;
if (shared->proc_queue == NULL)
shared->proc_queue_last = NULL;
}
return blk;
}
static void store_completed_block(thread_pool_processor_t *shared,
sqfs_block_t *blk, int status)
{
sqfs_block_t *it = shared->done, *prev = NULL;
while (it != NULL) {
if (it->proc_seq_num >= blk->proc_seq_num)
break;
prev = it;
it = it->next;
}
if (prev == NULL) {
blk->next = shared->done;
shared->done = blk;
} else {
blk->next = prev->next;
prev->next = blk;
}
if (status != 0 && shared->status == 0)
shared->status = status;
SIGNAL_ALL(&shared->done_cond);
}
static THREAD_TYPE worker_proc(THREAD_ARG arg)
{
compress_worker_t *worker = arg;
thread_pool_processor_t *shared = worker->shared;
sqfs_block_processor_t *proc = (sqfs_block_processor_t *)shared;
sqfs_block_t *blk = NULL;
int status = 0;
for (;;) {
LOCK(&shared->mtx);
if (blk != NULL)
store_completed_block(shared, blk, status);
blk = get_next_work_item(shared);
UNLOCK(&shared->mtx);
if (blk == NULL)
break;
status = proc->process_block(blk, worker->cmp, worker->scratch,
proc->max_block_size);
}
return THREAD_EXIT_SUCCESS;
}
static void block_processor_destroy(sqfs_object_t *obj)
{
thread_pool_processor_t *proc = (thread_pool_processor_t *)obj;
unsigned int i;
LOCK(&proc->mtx);
proc->status = -1;
SIGNAL_ALL(&proc->queue_cond);
UNLOCK(&proc->mtx);
for (i = 0; i < proc->num_workers; ++i) {
if (proc->workers[i] != NULL) {
if (proc->workers[i]->thread != THREAD_INVALID)
THREAD_JOIN(proc->workers[i]->thread);
if (proc->workers[i]->cmp != NULL)
sqfs_destroy(proc->workers[i]->cmp);
free(proc->workers[i]);
}
}
CONDITION_DESTROY(&proc->done_cond);
CONDITION_DESTROY(&proc->queue_cond);
MUTEX_DESTROY(&proc->mtx);
free_blk_list(proc->proc_queue);
free_blk_list(proc->io_queue);
free_blk_list(proc->done);
block_processor_cleanup(&proc->base);
free(proc);
}
static void store_io_block(thread_pool_processor_t *proc, sqfs_block_t *blk)
{
sqfs_block_t *it = proc->io_queue, *prev = NULL;
while (it != NULL && it->io_seq_num < blk->io_seq_num) {
prev = it;
it = it->next;
}
if (prev == NULL) {
blk->next = proc->io_queue;
proc->io_queue = blk;
} else {
blk->next = prev->next;
prev->next = blk;
}
proc->backlog += 1;
}
static sqfs_block_t *try_dequeue_io(thread_pool_processor_t *proc)
{
sqfs_block_t *out;
if (proc->io_queue == NULL)
return NULL;
if (proc->io_queue->io_seq_num != proc->io_deq_id)
return NULL;
out = proc->io_queue;
proc->io_queue = out->next;
out->next = NULL;
proc->io_deq_id += 1;
proc->backlog -= 1;
return out;
}
static sqfs_block_t *try_dequeue_done(thread_pool_processor_t *proc)
{
sqfs_block_t *out;
if (proc->done == NULL)
return NULL;
if (proc->done->proc_seq_num != proc->proc_deq_id)
return NULL;
out = proc->done;
proc->done = out->next;
out->next = NULL;
proc->proc_deq_id += 1;
proc->backlog -= 1;
return out;
}
static void append_block(thread_pool_processor_t *proc, sqfs_block_t *block)
{
if (proc->proc_queue_last == NULL) {
proc->proc_queue = proc->proc_queue_last = block;
} else {
proc->proc_queue_last->next = block;
proc->proc_queue_last = block;
}
block->proc_seq_num = proc->proc_enq_id++;
block->next = NULL;
proc->backlog += 1;
}
static int handle_io_queue(thread_pool_processor_t *proc, sqfs_block_t *list)
{
sqfs_block_t *it;
int status = 0;
while (status == 0 && list != NULL) {
it = list;
list = list->next;
status = proc->base.process_completed_block(&proc->base, it);
if (status != 0) {
LOCK(&proc->mtx);
if (proc->status == 0)
proc->status = status;
SIGNAL_ALL(&proc->queue_cond);
UNLOCK(&proc->mtx);
}
}
return status;
}
static int append_to_work_queue(sqfs_block_processor_t *proc,
sqfs_block_t *block)
{
thread_pool_processor_t *thproc = (thread_pool_processor_t *)proc;
sqfs_block_t *io_list = NULL, *io_list_last = NULL;
sqfs_block_t *blk, *fragblk;
int status;
LOCK(&thproc->mtx);
for (;;) {
status = thproc->status;
if (status != 0)
break;
if (block == NULL) {
if (thproc->backlog == 0)
break;
} else {
if (thproc->backlog < thproc->max_backlog) {
append_block(thproc, block);
block = NULL;
break;
}
}
blk = try_dequeue_io(thproc);
if (blk != NULL) {
if (io_list_last == NULL) {
io_list = io_list_last = blk;
} else {
io_list_last->next = blk;
io_list_last = blk;
}
continue;
}
blk = try_dequeue_done(thproc);
if (blk == NULL) {
AWAIT(&thproc->done_cond, &thproc->mtx);
continue;
}
if (blk->flags & SQFS_BLK_IS_FRAGMENT) {
fragblk = NULL;
thproc->status =
proc->process_completed_fragment(proc, blk,
&fragblk);
if (fragblk != NULL) {
fragblk->io_seq_num = thproc->io_enq_id++;
append_block(thproc, fragblk);
SIGNAL_ALL(&thproc->queue_cond);
}
} else {
if (!(blk->flags & SQFS_BLK_FRAGMENT_BLOCK) ||
blk->flags & BLK_FLAG_MANUAL_SUBMISSION)
blk->io_seq_num = thproc->io_enq_id++;
store_io_block(thproc, blk);
}
}
SIGNAL_ALL(&thproc->queue_cond);
UNLOCK(&thproc->mtx);
free(block);
if (status == 0) {
status = handle_io_queue(thproc, io_list);
} else {
free_blk_list(io_list);
}
return status;
}
static int block_processor_sync(sqfs_block_processor_t *proc)
{
return append_to_work_queue(proc, NULL);
}
int sqfs_block_processor_create_ex(const sqfs_block_processor_desc_t *desc,
sqfs_block_processor_t **out)
{
thread_pool_processor_t *proc;
unsigned int i, num_workers;
sigset_t oldset;
int ret;
if (desc->size != sizeof(sqfs_block_processor_desc_t))
return SQFS_ERROR_ARG_INVALID;
num_workers = desc->num_workers < 1 ? 1 : desc->num_workers;
proc = alloc_flex(sizeof(*proc),
sizeof(proc->workers[0]), num_workers);
if (proc == NULL)
return SQFS_ERROR_ALLOC;
ret = block_processor_init(&proc->base, desc);
if (ret != 0) {
free(proc);
return ret;
}
proc->base.sync = block_processor_sync;
proc->base.append_to_work_queue = append_to_work_queue;
proc->num_workers = num_workers;
proc->max_backlog = desc->max_backlog;
((sqfs_object_t *)proc)->destroy = block_processor_destroy;
MUTEX_INIT(&proc->mtx);
CONDITION_INIT(&proc->queue_cond);
CONDITION_INIT(&proc->done_cond);
SIGNAL_DISABLE(&oldset);
for (i = 0; i < num_workers; ++i) {
proc->workers[i] = alloc_flex(sizeof(compress_worker_t),
1, desc->max_block_size);
if (proc->workers[i] == NULL) {
ret = SQFS_ERROR_ALLOC;
goto fail;
}
proc->workers[i]->shared = proc;
proc->workers[i]->cmp = sqfs_copy(desc->cmp);
if (proc->workers[i]->cmp == NULL) {
ret = SQFS_ERROR_ALLOC;
goto fail;
}
ret = THREAD_CREATE(&proc->workers[i]->thread,
worker_proc, proc->workers[i]);
if (ret != 0) {
ret = SQFS_ERROR_INTERNAL;
goto fail;
}
}
SIGNAL_ENABLE(&oldset);
*out = (sqfs_block_processor_t *)proc;
return 0;
fail:
SIGNAL_ENABLE(&oldset);
block_processor_destroy((sqfs_object_t *)proc);
return ret;
}
|